HD

What are the advantages of spiral finned tubes?

The high-frequency welding method of spiral finned tubes is an environmentally friendly and energy-saving heat exchange element recognized in China. It uses high-temperature steam and heat-conducting oil as a heat source to heat the air. It has a compact structure, a large heat exchange area, and a fast radiator. The installation of the spiral finned tube is simple and economical, the length can reach 6 meters, and the connection points are reduced. The main heat dissipation element has excellent heat dissipation, which is several times or even dozens of times that of ordinary light pipe radiators. The heat dissipation effect is excellent, and its service life can reach More than 20 years. In the development of spiral finned tubes in recent years, finned tubes are widely used in heating systems of large buildings in various fields, and are widely used in boiler economizers, air preheaters, waste heat boilers, chemical plants, pressure vessels, etc. Thermal equipment in various industries.

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How to make wear-resistant elbow?

1 Before starting the pipe bender, first check that the main machine, auxiliary machine, water pump, oil pump, air compressor, etc. of the pipe bender are in good condition. 2 Check the intermediate frequency power supply to make sure that all components are in good condition and in standby state. 3 Start the cooling water system and adjust the water pressure to the pressure required by the elbow. 4 Start the oil pump, check the oil system, put the oil quantity control valve in the closed position, and put the other valves in the elbow position. 5 Start the IF power supply. 6 After the intermediate frequency power supply is put in, when the heating temperature of the steel pipe reaches the minimum temperature required by the bend, slowly adjust the oil volume and start pushing the pipe. The increase and decrease must be coordinated with the temperature to ensure that the heating temperature does not exceed the temperature. 7 The method of diathermy for thick-walled alloy tubes can be carried out first, and the diathermy test can generally be carried out by the following methods: 7.1 Use low power to prolong the heat penetration time, so that the temperature of the outer wall of the elbow is not more than 800°C, and the temperature of the inner wall of the steel pipe reaches about 600°C. Slowly push the pipe to bend the pipe. Tube temperature and pushing speed, reach the rated parameters to bend the tube. 7.2 For thick-walled pipes with a pipe diameter greater than 300 mm and a wall thickness greater than 30 mm, if one-time diathermy fails (that is, when the temperature of the outer wall reaches 850 °C and the inner wall is not red), the temperature of the outer wall should be strictly controlled. When the temperature of the outer wall reaches 950 °C At this time, turn off the intermediate frequency power supply, and when the temperature of the outer wall drops to 750°C (at this time, due to heat conduction, the temperature of the inner wall rises to about 600°C), immediately turn on the power supply again, and slowly push the elbow. If it is less than 600°C, the above method can be repeated once. When the temperature of the outer wall still does not reach 600°C for the second time, the machine should be shut down to study the cause, and the pipe may be bent after formulating countermeasures. 8 During the pipe bending process, check frequently: 8.1 Frequently check the operation of water pumps, oil pumps, and air compressors, and deal with any abnormalities in time; 8.2 Monitor the surrounding gap between the induction coil and the elbow and the cooling of the spray hole, and adjust and pass through the hole if necessary to make the heating belt of the elbow normal to ensure the quality of the elbow; 8.3 Pay attention to check the oil cylinder, there should be no air leakage, so as to prevent excessive crawling or unstable oil pressure, which will affect the quality of the elbow. 9 In case of water or power failure, stop the machine in time and move the oil cylinder back in time. If you can continue to bend the pipe in a hot state, turn the arm back slightly so that the steel pipe is not stressed, and restart the pipe bending. To avoid waviness or cold drawing at the connection. 10 Shutdown sequence of the elbow, first stop the heating power supply and the oil quantity control valve, then stop the cooling water or compressed air according to the cooling condition of the heating belt, and immediately loosen the front chuck (to prevent the rebound force after cooling and make it difficult to open), Then return the oil cylinder, and finally stop each accessory system. 11 To ensure that there are no obstacles around the pipe bending machine that hinder the operation of the machine tool, oil the rails, screw rods and lubricating parts frequently to ensure cleanliness. 12 Fill in the equipment maintenance records and equipment repair records on time. 13 When hoisting the steel pipe, the pipe bender should first check whether the steel wire rope and the snap ring are qualified. According to the lifting weight within the range of the safety factor of the steel wire rope, the steel wire rope and the snap ring should be used reasonably, and the hoisting angle should be reasonable. 14 The hoisted pipe should be stable, and the staff should not stand under the hoisted pipe. When going up and down the block, the operator should stand in a stable and safe position, and the replaced block should have lifting lugs.

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What are the requirements of finned tube radiators for finned tubes?

Finned tube radiator, the name may not be known, because it is mainly used in industrial industries. Radiator Finned tubes are the key equipment in many heat transfer equipment, and the location is very important! The basic principle of a radiator is to use a refrigerant to cool the air or to heat the air with a heat medium.

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What is the structure of finned tube radiator?

Based on the research and analysis of the heat exchange process of the 1MW solid electric heat storage heat exchange system, the minimum heat exchange temperature of the hot air is analyzed from the efficiency of the fan and the structure of the heat exchanger itself; when designing the heat exchanger, it is To ensure heat transfer, the highest outlet temperature parameter should be used as the benchmark; overall and parametric performance analysis should also be performed based on the heat exchanger design of the 1MW unit.

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Do you know H-type finned tube radiator?

In my country, some coal-fired generating units have poor coal quality and high ash content. At the same time, the types of coal-fired coal are variable, which seriously affects the safe operation of thermal power units, especially the economizer tube bundle in the tail flue of the boiler. The flue gas temperature at the position is low, and the hardness of fly ash particles is high, so the problems of dust accumulation and wear are very serious. H-type finned tube radiator has good heat conduction characteristics, anti-corrosion characteristics and obvious anti-dust characteristics, and has been widely used in boiler economizers. For the structural optimization of H-shaped finned tubes, scholars at home and abroad have carried out extensive and in-depth research, including numerical simulation and experiments of H-shaped finned tubes. Thermal and resistance properties.

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